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AI 自动生成测试用例

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lids 2026-05-11 14:26:00 +08:00
parent 3b3119277e
commit d9c054d32f
1 changed files with 348 additions and 229 deletions
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tests/test_alert_manager.cpp
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#include "gtest/gtest.h" #include <gtest/gtest.h>
#include <gmock/gmock.h>
#include "alert_manager.hpp" #include "alert_manager.hpp"
#include <vector> #include <sstream>
#include <string> #include <iostream>
// Mock for time to ensure deterministic tests // 辅助类:用于捕获标准输出和标准错误输出
static uint32_t mock_timestamp = 1640995200; // 2022-01-01 00:00:00 UTC class StreamCapture {
class MockTime {
public: public:
static uint32_t getTimestamp() { return mock_timestamp; } StreamCapture() {
static void setTimestamp(uint32_t t) { mock_timestamp = t; } old_cout_buf_ = std::cout.rdbuf(cout_buffer_.rdbuf());
}; old_cerr_buf_ = std::cerr.rdbuf(cerr_buffer_.rdbuf());
// Helper function to compare AlertInfo
bool operator==(const AlertInfo& a, const AlertInfo& b) {
return a.type == b.type &&
a.status == b.status &&
a.trigger_time == b.trigger_time &&
a.acknowledge_time == b.acknowledge_time &&
a.resolve_time == b.resolve_time &&
a.description == b.description;
} }
// Test fixture ~StreamCapture() {
std::cout.rdbuf(old_cout_buf_);
std::cerr.rdbuf(old_cerr_buf_);
}
std::string getCoutOutput() const { return cout_buffer_.str(); }
std::string getCerrOutput() const { return cerr_buffer_.str(); }
private:
std::stringstream cout_buffer_;
std::stringstream cerr_buffer_;
std::streambuf* old_cout_buf_;
std::streambuf* old_cerr_buf_;
};
// 测试夹具
class AlertManagerTest : public ::testing::Test { class AlertManagerTest : public ::testing::Test {
protected: protected:
AlertManager manager;
void SetUp() override { void SetUp() override {
mock_timestamp = 1640995200; // 每个测试用例前重置 AlertManager
manager.initialize(); manager_ = std::make_unique<AlertManager>();
} }
void TearDown() override { void TearDown() override {
manager.clearHistory(); manager_.reset();
} }
std::unique_ptr<AlertManager> manager_;
}; };
TEST_F(AlertManagerTest, testAlertManagerDefaultInitialization) { // ==================== checkAltitudeAlert 测试 ====================
EXPECT_FLOAT_EQ(manager.getAltitudeThresholds().first, 100.0f);
EXPECT_FLOAT_EQ(manager.getAltitudeThresholds().second, -50.0f); // 正常输入测试:高度在阈值范围内,不触发预警
EXPECT_TRUE(manager.getActiveAlerts().empty()); TEST_F(AlertManagerTest, testCheckAltitudeAlertNormalRange) {
EXPECT_TRUE(manager.getAlertHistory(10).empty()); StreamCapture capture;
// 默认阈值上限100.0,下限-50.0
// 测试高度在正常范围内
manager_->checkAltitudeAlert(50.0f, 1000);
// 验证没有预警被触发
EXPECT_FALSE(manager_->hasActiveAlerts());
EXPECT_FALSE(manager_->hasUnacknowledgedAlerts());
// 验证输出不包含预警信息
std::string output = capture.getCoutOutput();
EXPECT_EQ(output.find("[预警]"), std::string::npos);
} }
TEST_F(AlertManagerTest, testInitialize) { // 正常输入测试:高度超过上限,触发上限预警
// No direct output assertion, but verify initialization logic TEST_F(AlertManagerTest, testCheckAltitudeAlertUpperThreshold) {
// This is tested implicitly via constructor StreamCapture capture;
EXPECT_NO_FATAL_FAILURE(manager.initialize());
// 测试高度超过上限
manager_->checkAltitudeAlert(150.0f, 2000);
// 验证有活动预警
EXPECT_TRUE(manager_->hasActiveAlerts());
EXPECT_TRUE(manager_->hasUnacknowledgedAlerts());
// 验证预警类型为上限预警
auto active_alerts = manager_->getActiveAlerts();
ASSERT_EQ(active_alerts.size(), 1);
EXPECT_EQ(active_alerts[0].type, AlertType::ALTITUDE_UPPER);
EXPECT_EQ(active_alerts[0].status, AlertStatus::ACTIVE);
EXPECT_EQ(active_alerts[0].trigger_time, 2000);
// 验证输出包含预警信息
std::string output = capture.getCoutOutput();
EXPECT_NE(output.find("高度上限预警"), std::string::npos);
EXPECT_NE(output.find("150"), std::string::npos);
} }
TEST_F(AlertManagerTest, testCheckAltitudeAlertNormal) { // 正常输入测试:高度低于下限,触发下限预警
mock_timestamp = 1640995200; TEST_F(AlertManagerTest, testCheckAltitudeAlertLowerThreshold) {
manager.checkAltitudeAlert(105.0f, mock_timestamp); StreamCapture capture;
auto alerts = manager.getActiveAlerts();
EXPECT_EQ(alerts.size(), 1); // 测试高度低于下限
EXPECT_EQ(alerts[0].type, AlertType::ALTITUDE_UPPER); manager_->checkAltitudeAlert(-100.0f, 3000);
EXPECT_EQ(alerts[0].status, AlertStatus::ACTIVE);
EXPECT_EQ(alerts[0].trigger_time, mock_timestamp); // 验证有活动预警
EXPECT_TRUE(manager_->hasActiveAlerts());
EXPECT_TRUE(manager_->hasUnacknowledgedAlerts());
// 验证预警类型为下限预警
auto active_alerts = manager_->getActiveAlerts();
ASSERT_EQ(active_alerts.size(), 1);
EXPECT_EQ(active_alerts[0].type, AlertType::ALTITUDE_LOWER);
EXPECT_EQ(active_alerts[0].status, AlertStatus::ACTIVE);
EXPECT_EQ(active_alerts[0].trigger_time, 3000);
// 验证输出包含预警信息
std::string output = capture.getCoutOutput();
EXPECT_NE(output.find("高度下限预警"), std::string::npos);
EXPECT_NE(output.find("-100"), std::string::npos);
} }
TEST_F(AlertManagerTest, testCheckAltitudeAlertBelowLower) { // 边界值测试:高度等于上限阈值,不触发预警
mock_timestamp = 1640995200; TEST_F(AlertManagerTest, testCheckAltitudeAlertEqualToUpper) {
manager.checkAltitudeAlert(-55.0f, mock_timestamp); StreamCapture capture;
auto alerts = manager.getActiveAlerts();
EXPECT_EQ(alerts.size(), 1); // 高度等于上限阈值,不应触发预警
EXPECT_EQ(alerts[0].type, AlertType::ALTITUDE_LOWER); manager_->checkAltitudeAlert(100.0f, 4000);
EXPECT_EQ(alerts[0].status, AlertStatus::ACTIVE);
EXPECT_FALSE(manager_->hasActiveAlerts());
EXPECT_FALSE(manager_->hasUnacknowledgedAlerts());
std::string output = capture.getCoutOutput();
EXPECT_EQ(output.find("[预警]"), std::string::npos);
} }
TEST_F(AlertManagerTest, testCheckAltitudeAlertResetWhenNormal) { // 边界值测试:高度等于下限阈值,不触发预警
mock_timestamp = 1640995200; TEST_F(AlertManagerTest, testCheckAltitudeAlertEqualToLower) {
manager.checkAltitudeAlert(105.0f, mock_timestamp); // Trigger upper StreamCapture capture;
mock_timestamp = 1640995201;
manager.checkAltitudeAlert(90.0f, mock_timestamp); // Reset // 高度等于下限阈值,不应触发预警
auto alerts = manager.getActiveAlerts(); manager_->checkAltitudeAlert(-50.0f, 5000);
EXPECT_TRUE(alerts.empty());
EXPECT_FALSE(manager_->hasActiveAlerts());
EXPECT_FALSE(manager_->hasUnacknowledgedAlerts());
std::string output = capture.getCoutOutput();
EXPECT_EQ(output.find("[预警]"), std::string::npos);
} }
// 边界值测试:高度略高于上限,触发预警
TEST_F(AlertManagerTest, testCheckAltitudeAlertJustAboveUpper) {
StreamCapture capture;
// 高度略高于上限
manager_->checkAltitudeAlert(100.1f, 6000);
EXPECT_TRUE(manager_->hasActiveAlerts());
auto active_alerts = manager_->getActiveAlerts();
ASSERT_EQ(active_alerts.size(), 1);
EXPECT_EQ(active_alerts[0].type, AlertType::ALTITUDE_UPPER);
}
// 边界值测试:高度略低于下限,触发预警
TEST_F(AlertManagerTest, testCheckAltitudeAlertJustBelowLower) {
StreamCapture capture;
// 高度略低于下限
manager_->checkAltitudeAlert(-50.1f, 7000);
EXPECT_TRUE(manager_->hasActiveAlerts());
auto active_alerts = manager_->getActiveAlerts();
ASSERT_EQ(active_alerts.size(), 1);
EXPECT_EQ(active_alerts[0].type, AlertType::ALTITUDE_LOWER);
}
// 异常输入测试:高度为极大值
TEST_F(AlertManagerTest, testCheckAltitudeAlertExtremeHigh) {
StreamCapture capture;
// 测试非常大的高度值
manager_->checkAltitudeAlert(999999.0f, 8000);
EXPECT_TRUE(manager_->hasActiveAlerts());
auto active_alerts = manager_->getActiveAlerts();
ASSERT_EQ(active_alerts.size(), 1);
EXPECT_EQ(active_alerts[0].type, AlertType::ALTITUDE_UPPER);
}
// 异常输入测试:高度为极小值
TEST_F(AlertManagerTest, testCheckAltitudeAlertExtremeLow) {
StreamCapture capture;
// 测试非常小的高度值
manager_->checkAltitudeAlert(-999999.0f, 9000);
EXPECT_TRUE(manager_->hasActiveAlerts());
auto active_alerts = manager_->getActiveAlerts();
ASSERT_EQ(active_alerts.size(), 1);
EXPECT_EQ(active_alerts[0].type, AlertType::ALTITUDE_LOWER);
}
// 特殊场景测试:高度从异常恢复到正常,预警应解除
TEST_F(AlertManagerTest, testCheckAltitudeAlertRecovery) {
StreamCapture capture;
// 首先触发上限预警
manager_->checkAltitudeAlert(150.0f, 10000);
EXPECT_TRUE(manager_->hasActiveAlerts());
// 然后高度恢复正常
manager_->checkAltitudeAlert(50.0f, 10001);
// 验证预警已解决
EXPECT_FALSE(manager_->hasActiveAlerts());
EXPECT_FALSE(manager_->hasUnacknowledgedAlerts());
// 验证预警历史中存在已解决的记录
auto history = manager_->getAlertHistory(10);
bool found_resolved = false;
for (const auto& alert : history) {
if (alert.type == AlertType::ALTITUDE_UPPER &&
alert.status == AlertStatus::RESOLVED) {
found_resolved = true;
break;
}
}
EXPECT_TRUE(found_resolved);
}
// 特殊场景测试:同时触发上下限预警
TEST_F(AlertManagerTest, testCheckAltitudeAlertBothThresholds) {
StreamCapture capture;
// 先触发上限预警
manager_->checkAltitudeAlert(150.0f, 11000);
// 然后触发下限预警(此时上限预警应保持活动)
manager_->checkAltitudeAlert(-100.0f, 11001);
// 验证有两个活动预警
auto active_alerts = manager_->getActiveAlerts();
ASSERT_EQ(active_alerts.size(), 2);
// 验证两个预警类型都存在
bool has_upper = false, has_lower = false;
for (const auto& alert : active_alerts) {
if (alert.type == AlertType::ALTITUDE_UPPER) has_upper = true;
if (alert.type == AlertType::ALTITUDE_LOWER) has_lower = true;
}
EXPECT_TRUE(has_upper);
EXPECT_TRUE(has_lower);
}
// 特殊场景测试:重复触发相同预警,不应重复创建
TEST_F(AlertManagerTest, testCheckAltitudeAlertDuplicateTrigger) {
StreamCapture capture;
// 第一次触发上限预警
manager_->checkAltitudeAlert(150.0f, 12000);
// 再次触发相同的上限预警
manager_->checkAltitudeAlert(200.0f, 12001);
// 验证仍然只有一个活动预警
auto active_alerts = manager_->getActiveAlerts();
ASSERT_EQ(active_alerts.size(), 1);
EXPECT_EQ(active_alerts[0].type, AlertType::ALTITUDE_UPPER);
}
// ==================== setAltitudeThresholds 测试 ====================
// 正常输入测试:设置有效的阈值
TEST_F(AlertManagerTest, testSetAltitudeThresholdsValid) { TEST_F(AlertManagerTest, testSetAltitudeThresholdsValid) {
manager.setAltitudeThresholds(200.0f, -100.0f); StreamCapture capture;
auto thresholds = manager.getAltitudeThresholds();
EXPECT_FLOAT_EQ(thresholds.first, 200.0f); manager_->setAltitudeThresholds(200.0f, -100.0f);
EXPECT_FLOAT_EQ(thresholds.second, -100.0f);
// 验证阈值已更新
// 通过触发预警来验证
manager_->checkAltitudeAlert(150.0f, 13000); // 应低于新上限,不触发预警
EXPECT_FALSE(manager_->hasActiveAlerts());
manager_->checkAltitudeAlert(250.0f, 13001); // 应高于新上限,触发预警
EXPECT_TRUE(manager_->hasActiveAlerts());
// 验证输出信息
std::string output = capture.getCoutOutput();
EXPECT_NE(output.find("预警阈值已更新"), std::string::npos);
EXPECT_NE(output.find("200"), std::string::npos);
EXPECT_NE(output.find("-100"), std::string::npos);
} }
// 边界值测试:设置上限等于下限,应输出错误
TEST_F(AlertManagerTest, testSetAltitudeThresholdsEqual) {
StreamCapture capture;
manager_->setAltitudeThresholds(100.0f, 100.0f);
// 验证错误输出
std::string error_output = capture.getCerrOutput();
EXPECT_NE(error_output.find("上限阈值必须大于下限阈值"), std::string::npos);
// 验证阈值未改变
manager_->checkAltitudeAlert(100.0f, 14000); // 应等于上限,不触发预警
EXPECT_FALSE(manager_->hasActiveAlerts());
manager_->checkAltitudeAlert(100.1f, 14001); // 应触发上限预警
EXPECT_TRUE(manager_->hasActiveAlerts());
}
// 异常输入测试:设置上限小于下限,应输出错误
TEST_F(AlertManagerTest, testSetAltitudeThresholdsInvalid) { TEST_F(AlertManagerTest, testSetAltitudeThresholdsInvalid) {
EXPECT_NO_FATAL_FAILURE(manager.setAltitudeThresholds(50.0f, 100.0f)); StreamCapture capture;
// Should print error, but no crash
EXPECT_FLOAT_EQ(manager.getAltitudeThresholds().first, 100.0f); manager_->setAltitudeThresholds(-50.0f, 100.0f);
EXPECT_FLOAT_EQ(manager.getAltitudeThresholds().second, -50.0f);
// 验证错误输出
std::string error_output = capture.getCerrOutput();
EXPECT_NE(error_output.find("上限阈值必须大于下限阈值"), std::string::npos);
// 验证阈值未改变
manager_->checkAltitudeAlert(150.0f, 15000); // 应触发上限预警
EXPECT_TRUE(manager_->hasActiveAlerts());
auto active_alerts = manager_->getActiveAlerts();
ASSERT_EQ(active_alerts.size(), 1);
EXPECT_EQ(active_alerts[0].type, AlertType::ALTITUDE_UPPER);
} }
TEST_F(AlertManagerTest, testTriggerSensorFailure) { // 边界值测试:设置极大值阈值
mock_timestamp = 1640995200; TEST_F(AlertManagerTest, testSetAltitudeThresholdsExtremeValues) {
manager.triggerSensorFailure(mock_timestamp); StreamCapture capture;
auto alerts = manager.getActiveAlerts();
EXPECT_EQ(alerts.size(), 1); manager_->setAltitudeThresholds(10000.0f, -10000.0f);
EXPECT_EQ(alerts[0].type, AlertType::SENSOR_FAILURE);
EXPECT_EQ(alerts[0].status, AlertStatus::ACTIVE); // 验证阈值生效
EXPECT_EQ(alerts[0].trigger_time, mock_timestamp); manager_->checkAltitudeAlert(5000.0f, 16000); // 在范围内
EXPECT_FALSE(manager_->hasActiveAlerts());
manager_->checkAltitudeAlert(15000.0f, 16001); // 超出上限
EXPECT_TRUE(manager_->hasActiveAlerts());
} }
TEST_F(AlertManagerTest, testTriggerLowBattery) { // 特殊场景测试:设置阈值后,原有预警应被重置
mock_timestamp = 1640995200; TEST_F(AlertManagerTest, testSetAltitudeThresholdsResetAlerts) {
manager.triggerLowBattery(mock_timestamp, 15.0f); StreamCapture capture;
auto alerts = manager.getActiveAlerts();
EXPECT_EQ(alerts.size(), 1); // 先触发一个预警
EXPECT_EQ(alerts[0].type, AlertType::LOW_BATTERY); manager_->checkAltitudeAlert(150.0f, 17000);
EXPECT_EQ(alerts[0].status, AlertStatus::ACTIVE); EXPECT_TRUE(manager_->hasActiveAlerts());
EXPECT_NE(alerts[0].description.find("15.0%"), std::string::npos);
// 设置新阈值
manager_->setAltitudeThresholds(200.0f, -100.0f);
// 验证原有预警已被重置
EXPECT_FALSE(manager_->hasActiveAlerts());
EXPECT_FALSE(manager_->hasUnacknowledgedAlerts());
} }
TEST_F(AlertManagerTest, testTriggerCommunicationError) { // 特殊场景测试:多次设置阈值
mock_timestamp = 1640995200; TEST_F(AlertManagerTest, testSetAltitudeThresholdsMultipleTimes) {
manager.triggerCommunicationError(mock_timestamp); StreamCapture capture;
auto alerts = manager.getActiveAlerts();
EXPECT_EQ(alerts.size(), 1); // 第一次设置
EXPECT_EQ(alerts[0].type, AlertType::COMMUNICATION_ERROR); manager_->setAltitudeThresholds(200.0f, -100.0f);
EXPECT_EQ(alerts[0].status, AlertStatus::ACTIVE);
// 第二次设置
manager_->setAltitudeThresholds(300.0f, -200.0f);
// 验证最终阈值
manager_->checkAltitudeAlert(250.0f, 18000); // 在范围内
EXPECT_FALSE(manager_->hasActiveAlerts());
manager_->checkAltitudeAlert(350.0f, 18001); // 超出上限
EXPECT_TRUE(manager_->hasActiveAlerts());
} }
TEST_F(AlertManagerTest, testAcknowledgeAllAlerts) { // 特殊场景测试:设置阈值后立即检查高度
mock_timestamp = 1640995200; TEST_F(AlertManagerTest, testSetAltitudeThresholdsImmediateCheck) {
manager.triggerSensorFailure(mock_timestamp); StreamCapture capture;
manager.triggerLowBattery(mock_timestamp + 1, 10.0f);
mock_timestamp = 1640995202; // 设置新阈值
manager.acknowledgeAllAlerts(mock_timestamp); manager_->setAltitudeThresholds(150.0f, -50.0f);
auto alerts = manager.getActiveAlerts();
EXPECT_TRUE(alerts.empty()); // 立即检查高度原默认阈值100会触发预警新阈值150不会
EXPECT_EQ(alerts.size(), 0); manager_->checkAltitudeAlert(120.0f, 19000);
// 验证没有触发预警
EXPECT_FALSE(manager_->hasActiveAlerts());
} }
TEST_F(AlertManagerTest, testAcknowledgeAlert) { // 主函数
mock_timestamp = 1640995200; int main(int argc, char **argv) {
manager.triggerSensorFailure(mock_timestamp); ::testing::InitGoogleTest(&argc, argv);
mock_timestamp = 1640995201; return RUN_ALL_TESTS();
manager.acknowledgeAlert(AlertType::SENSOR_FAILURE, mock_timestamp);
auto alerts = manager.getActiveAlerts();
EXPECT_TRUE(alerts.empty());
}
TEST_F(AlertManagerTest, testResetAlert) {
mock_timestamp = 1640995200;
manager.triggerSensorFailure(mock_timestamp);
manager.resetAlert(AlertType::SENSOR_FAILURE);
auto alerts = manager.getActiveAlerts();
EXPECT_TRUE(alerts.empty());
}
TEST_F(AlertManagerTest, testResetAllAlerts) {
mock_timestamp = 1640995200;
manager.triggerSensorFailure(mock_timestamp);
manager.triggerLowBattery(mock_timestamp + 1, 10.0f);
manager.resetAllAlerts();
auto alerts = manager.getActiveAlerts();
EXPECT_TRUE(alerts.empty());
}
TEST_F(AlertManagerTest, testHasActiveAlerts) {
EXPECT_FALSE(manager.hasActiveAlerts());
mock_timestamp = 1640995200;
manager.triggerSensorFailure(mock_timestamp);
EXPECT_TRUE(manager.hasActiveAlerts());
}
TEST_F(AlertManagerTest, testHasUnacknowledgedAlerts) {
EXPECT_FALSE(manager.hasUnacknowledgedAlerts());
mock_timestamp = 1640995200;
manager.triggerSensorFailure(mock_timestamp);
EXPECT_TRUE(manager.hasUnacknowledgedAlerts());
manager.acknowledgeAllAlerts(mock_timestamp + 1);
EXPECT_FALSE(manager.hasUnacknowledgedAlerts());
}
TEST_F(AlertManagerTest, testGetActiveAlerts) {
mock_timestamp = 1640995200;
manager.triggerSensorFailure(mock_timestamp);
auto alerts = manager.getActiveAlerts();
EXPECT_EQ(alerts.size(), 1);
EXPECT_EQ(alerts[0].type, AlertType::SENSOR_FAILURE);
}
TEST_F(AlertManagerTest, testGetAlertHistoryMaxCount) {
mock_timestamp = 1640995200;
for (int i = 0; i < 15; ++i) {
manager.triggerSensorFailure(mock_timestamp + i);
}
auto history = manager.getAlertHistory(10);
EXPECT_EQ(history.size(), 10);
}
TEST_F(AlertManagerTest, testGetStatusDescriptionNoAlerts) {
std::string desc = manager.getStatusDescription();
EXPECT_EQ(desc, "系统状态:正常");
}
TEST_F(AlertManagerTest, testGetStatusDescriptionWithAlerts) {
mock_timestamp = 1640995200;
manager.triggerSensorFailure(mock_timestamp);
std::string desc = manager.getStatusDescription();
EXPECT_NE(desc.find("有1个活动预警"), std::string::npos);
EXPECT_NE(desc.find("传感器故障"), std::string::npos);
}
TEST_F(AlertManagerTest, testClearHistory) {
mock_timestamp = 1640995200;
manager.triggerSensorFailure(mock_timestamp);
manager.clearHistory();
EXPECT_TRUE(manager.getAlertHistory(10).empty());
}
TEST_F(AlertManagerTest, testAddToHistoryLimit) {
mock_timestamp = 1640995200;
for (int i = 0; i < 100; ++i) {
manager.triggerSensorFailure(mock_timestamp + i);
}
auto history = manager.getAlertHistory(10);
EXPECT_EQ(history.size(), 10);
}
TEST_F(AlertManagerTest, testTriggerAlert) {
mock_timestamp = 1640995200;
manager.triggerAlert(AlertType::SENSOR_FAILURE, mock_timestamp, "Test alert");
auto alerts = manager.getActiveAlerts();
EXPECT_EQ(alerts.size(), 1);
EXPECT_EQ(alerts[0].description, "Test alert");
}
TEST_F(AlertManagerTest, testUpdateAlertStatusAcknowledged) {
mock_timestamp = 1640995200;
manager.triggerSensorFailure(mock_timestamp);
mock_timestamp = 1640995201;
manager.updateAlertStatus(AlertType::SENSOR_FAILURE, AlertStatus::ACKNOWLEDGED, mock_timestamp);
auto alerts = manager.getActiveAlerts();
EXPECT_TRUE(alerts.empty());
}
TEST_F(AlertManagerTest, testUpdateAlertStatusResolved) {
mock_timestamp = 1640995200;
manager.triggerSensorFailure(mock_timestamp);
mock_timestamp = 1640995201;
manager.updateAlertStatus(AlertType::SENSOR_FAILURE, AlertStatus::RESOLVED, mock_timestamp);
auto alerts = manager.getActiveAlerts();
EXPECT_TRUE(alerts.empty());
}
TEST_F(AlertManagerTest, testGetAlertTypeName) {
EXPECT_EQ(manager.getAlertTypeName(AlertType::ALTITUDE_UPPER), "高度上限预警");
EXPECT_EQ(manager.getAlertTypeName(AlertType::NONE), "");
EXPECT_EQ(manager.getAlertTypeName(static_cast<AlertType>(99)), "未知预警");
}
TEST_F(AlertManagerTest, testGetAlertStatusName) {
EXPECT_EQ(manager.getAlertStatusName(AlertStatus::ACTIVE), "预警中");
EXPECT_EQ(manager.getAlertStatusName(AlertStatus::INACTIVE), "未激活");
EXPECT_EQ(manager.getAlertStatusName(static_cast<AlertStatus>(99)), "未知状态");
}
TEST_F(AlertManagerTest, testDestructorDoesNotCrash) {
// Verify destructor doesn't throw or crash
EXPECT_NO_FATAL_FAILURE({
AlertManager* mgr = new AlertManager();
delete mgr;
});
} }